纳米材料
薄荷醇
共晶体系
纳米孔
材料科学
文丘里效应
纳米-
碳纤维
百里香酚
纳米技术
化学工程
化学
有机化学
复合材料
色谱法
复合数
微观结构
精油
机械工程
工程类
入口
作者
Cuesta, Nuria Aguilar,Rocio Barros Garcia,Juan Antonio Tamayo‐Ramos,Sonia Martel-Martín,Alfredo Bol,Mert Athilan,Santiago Martı́nez
标识
DOI:10.5281/zenodo.8059474
摘要
A theoretical study using Density Functional Theory and classical Molecular Dynamics simulations for the study of carbon nanomaterials in archetypical Menthol + Thymol Type V Natural Deep Eutectic Solvent is reported. The nanoscopic structure of the representative nanofluid is analyzed considering confinement, adsorption and solvation effects, as well as consequences on diffusion properties through nano pores. Different types of nanomaterials were considered such as fullerenes, nanotubes, graphene and nanopores. The study of nanoscopic properties allowed to analyze the response of the solvent to the presence of the nanomaterials, taking into account solvent rearrangement and confinement in nanocavities and surfaces. This response shows liquid structure and mobility consequences, with a sort of nano-Venturi effect among them. The reported results provide for the first time a characterization of this type of natural solvents as a sustainable platform for the development of carbon – nanomaterials-based technologies
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